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引用次数: 21
摘要
目前,交流单相电源已广泛应用于铁路电气化。为了降低输入电压,轨道车辆应该安装一个笨重的变压器。近年来,包括中频变压器在内的几种多电平拓扑被提出来取代低频输入变压器。目标是在提高效率的同时减少牵引驱动器的重量和体积。本文主要研究一种用于间接结构的串联谐振DC/DC变换器。反向法测试台允许在额定条件下运行,使用10 kV碳化硅mosfet的混合功率模块与经典6.5 kV Si igbt模块进行了比较。
10kV SiC MOSFETs versus 6.5kV Si-IGBTs for medium frequency transformer application in railway traction
Nowadays, AC single phase power supply is widely used in railway electrification. To step down the input voltage, rail vehicles should board a heavy and bulky transformer. In recent years, several multilevel topologies including medium frequency transformers were proposed to replace the low frequency input transformer. The objective is to reduce weight and volume on the traction drive while increasing the efficiency. This paper focuses on the series-resonant DC/DC converter which is used in a well-known indirect structure. An opposition-method test bench allows to operate in rated conditions and hybrid power modules using 10 kV Silicon Carbide MOSFETs are compared to classical 6.5 kV Si IGBTs modules.
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